CN113904888B - Linkage method of air detection equipment and door and window, air detection equipment and door and window - Google Patents

Abstract

The invention discloses a linkage method of air detection equipment and a door and window, which is applied to the air detection equipment and comprises the following steps: acquiring equipment information of an intelligent door and window to be networked; after the intelligent door and window are added into a first circle of friends white list of the air detection equipment, receiving a second circle of friends white list of the intelligent door and window, wherein the second circle of friends white list comprises second networked equipment which establishes a second circle of friends with the intelligent door and window; searching the second networking equipment contained in the second friend circle white list, and adding the second networking equipment into the first friend circle white list; and utilizing the first friend circle white list to carry out linkage of the air detection equipment and the intelligent door and window. Therefore, the principle that friends of friends are friends can be utilized, the friend circle is quickly constructed, and linkage of the air detection equipment and the door and window is realized.

Description

Linkage method of air detection equipment and door and window, air detection equipment and door and window

Technical Field

The invention relates to the technical field of electrical equipment, in particular to a linkage method of air detection equipment and a door and window, the air detection equipment and the door and window.

Background

Along with the popularization of intelligent house, household electrical appliances support wifi and have become the normality, but can't realize the linkage basically between air quality detection device on the present market and door and window, and the function that most air quality detection device all only detected the warning or control through cell-phone APP, and the function is very single. Even if the linkage can be realized with relevant sensing equipment to air quality detection equipment, the mode of linkage also needs to carry out manual net with air quality detection equipment and door and window manually, and then accomplishes the linkage, realizes similar function, and the complicated and easy mistake of process.

Disclosure of Invention

In view of this, the embodiment of the invention provides a linkage method of an air detection device and a door and window, the air detection device and the door and window, so that linkage can be realized between the air detection device and the door and window without an active network distribution.

According to a first aspect, an embodiment of the present invention provides a method for linking an air detection device and a door and window, which is applied to the air detection device, and includes: acquiring equipment information of an intelligent door and window to be networked; after the intelligent door and window are added into a first circle of friends white list of the air detection equipment, receiving a second circle of friends white list of the intelligent door and window, wherein the second circle of friends white list comprises second networked equipment which establishes a second circle of friends with the intelligent door and window; searching the second networking equipment contained in the second friend circle white list, and adding the second networking equipment into the first friend circle white list; and utilizing the first circle of friends white list to carry out linkage of the air detection equipment and the intelligent door and window.

Optionally, the performing, by using the first circle of friends white list, linkage between the air detection device and the smart door window includes: acquiring air detection data; judging whether the content of harmful gas exceeds the standard or not according to the air detection data; when the content of the harmful gas exceeds the standard, determining a control signal of the intelligent door and window according to the content of the harmful gas, and sending the control signal to the intelligent door and window.

Optionally, the harmful gas comprises one or more of the following: CO, formaldehyde, TVOC, NO.

Optionally, after acquiring the device information of the smart door/window to be networked, the method further includes: sending a ranging command to the intelligent door and window with a preset first power, wherein the first power is smaller than the communication power of the air detection equipment; and after receiving a networking command sent by the intelligent door and window, adding the intelligent door and window into a first friend circle white list of the air detection equipment.

Optionally, after a networking command sent by the smart door/window is not received, determining that the smart door/window belongs to a verified list; before sending a ranging command to the smart door window with a preset first power, the method further comprises: acquiring the first friend circle white list and the verified list; judging whether the intelligent door and window is in the first circle of friends white list and the verified list; and when the intelligent door and window is not in the first friend circle white list and is not in the verified list, executing a step of sending a ranging command to the intelligent door and window.

Optionally, before obtaining the device information of the smart doors and windows to be networked, the method further includes: searching equipment to be networked; when a plurality of devices to be networked are searched, after the second networked device is added to the first circle of friends or after the smart door and window is judged to belong to a verified list, the method further comprises the following steps: and searching the next device to be networked in the plurality of devices to be networked, taking the next device to be networked as the intelligent door and window, traversing the searching to obtain the plurality of devices to be networked, and obtaining a first friend circle white list of the first friend circle.

Optionally, the linkage method of the air detection device and the smart door/window further includes: receiving the distance between the intelligent door and the air detection device sent by the intelligent door and the intelligent window, and taking the distance between the intelligent door and the air detection device as the distance information in the first friend circle; receiving the distance between the intelligent door and the second networked device, which is sent by the intelligent door and the intelligent door, and taking the distance between the intelligent door and the second networked device as the distance information in the first friend circle; after obtaining the first circle of friends white list of the first circle of friends, the method further comprises: sending a ranging command to the second networked device; and receiving the distance between the second networked device and the air detection device, which is sent by the second networked device, and taking the distance between the second networked device and the air detection device as the distance information in the first friend circle.

Optionally, the linkage method of the air detection device and the smart door/window further includes: when two devices in the first friend circle meet a preset cut-off condition, determining an effective path between the two devices; screening out the maximum distance from the distances between all adjacent devices according to the distances between all adjacent devices in the effective path; and cutting off the networking connection between the adjacent devices corresponding to the maximum distance.

Optionally, the determining the valid path between the two devices includes: determining all paths between the two devices; respectively determining the distance between adjacent devices in each path according to the distance information in the first friend circle; obtaining the maximum distance of the path according to the distance between the adjacent devices in any path, traversing all paths between the two devices, and obtaining a plurality of maximum distances corresponding to all paths between the two devices; and screening out the minimum maximum distance from the maximum distances, and taking the path corresponding to the minimum maximum distance as an effective path between the two devices.

According to a second aspect, an embodiment of the present invention further provides a method for linking an air detection device with a smart door/window, which is applied to the smart door/window, and is characterized by including: after the intelligent door and window and the air detection equipment establish a first circle of friends, sending a second circle of friends white list of the intelligent door and window to the air detection equipment so that the air detection equipment obtains the first circle of friends white list; and realizing the linkage of the intelligent door and window and the air detection equipment by utilizing the first circle of friends white list.

Optionally, the implementing of the linkage between the smart door and the smart window and the air detection device by using the first circle of friends white list includes: receiving a control signal sent by the air detection equipment; and controlling the opening amount and/or the opening mode of the intelligent door and window according to the control signal.

Optionally, before the smart door and window and the air detection device form a first circle of friends, the method further includes: when a distance measurement command sent by air detection equipment is received, determining the distance between the intelligent door and the air detection equipment according to the distance measurement command; when smart door and window with when distance between the empty gas detection surveys equipment less than or equal to predetermined standard distance, judge smart door and window with empty gas detection surveys equipment and establishes first friend circle.

Optionally, determining the distance between the smart door window and the air detection device according to the ranging command comprises: acquiring first power when the air detection equipment sends the ranging command; acquiring a second power when the distance measurement command received by the intelligent door and window is received; and determining the distance between the intelligent door and window and the air detection equipment according to the second power and the first power.

According to a third aspect, an embodiment of the present invention further provides a linkage device of an air detection device and a door and window, applied to the air detection device, including:

the device information acquisition module is used for acquiring the device information of the intelligent door and window to be networked;

the white list receiving module is used for receiving a second circle of friends white list of the intelligent door and window after the intelligent door and window is added into the first circle of friends white list of the air detection equipment, wherein the second circle of friends white list comprises second networked equipment which establishes a second circle of friends with the intelligent door and window;

a white list adding module, configured to search for the second networked device included in the second friend circle white list, and add the second networked device to the first friend circle white list;

and the first linkage module is used for utilizing the first friend circle white list to carry out linkage of the air detection equipment and the intelligent door and window.

According to a fourth aspect, an embodiment of the present invention further provides a linkage device between an air detection device and a door and window, which is applied to an intelligent door and window, where the intelligent door and window is a device to be currently networked of the air detection device, and the linkage device includes:

the white list sending module is used for sending a second friend circle white list of the intelligent door and window to the air detection equipment after the intelligent door and window and the air detection equipment form a first friend circle, so that the air detection equipment obtains a first friend circle white list;

and the second linkage module is used for realizing the linkage of the intelligent door and window and the air detection equipment by utilizing the first circle of friends white list.

According to a fifth aspect, the embodiment of the present invention further provides an air detection device, which includes a first memory and a first processor, where the first memory and the first processor are communicatively connected to each other, and the first memory stores computer instructions, and the first processor executes the computer instructions, so as to execute the method for linking the air detection device and the door and window according to the first aspect or any one of the embodiments of the first aspect.

According to a sixth aspect, the embodiment of the present invention further provides a door window, which includes a second memory and a second processor, where the second memory and the second processor are communicatively connected to each other, the second memory stores computer instructions, and the second processor executes the computer instructions, so as to execute the method for linking the air detection device with the door window according to the second aspect or any one of the second aspects.

Drawings

The features and advantages of the present invention will be more clearly understood by reference to the accompanying drawings, which are illustrative and not to be construed as limiting the invention in any way, and in which:

fig. 1 is a schematic flow chart of a linkage method of an air detection device and an intelligent door and window applied to the air detection device;

fig. 2 is a schematic flow chart of a linkage method between an air detection device applied to a smart door/window and the smart door/window;

FIG. 3 is a schematic structural diagram of a linkage device between an air detection device and a smart door/window applied to the air detection device;

fig. 4 is a schematic structural view of the air detection device applied to the smart door window and the linkage device of the smart door window.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The embodiment of the invention provides a linkage method of air detection equipment and a door window, which is applied to the air detection equipment. Fig. 1 is a schematic flow chart of a linkage method of an air detection device and a door and window applied to the air detection device. As shown in fig. 1, the method for linking the air detection device and the door and window applied to the air detection device comprises the following steps:

step 101, acquiring device information of an intelligent door and window to be networked.

As a further embodiment, before acquiring the device information of the smart doors and windows to be networked, the method further includes: and searching the equipment to be networked. It should be noted that, in general, a plurality of devices to be networked are searched. The device information includes, but is not limited to, a name, a number, an identifier, and the like of the device.

Step 102, after the intelligent door and window is added into a first friend circle white list of the air detection equipment, a second friend circle white list of the intelligent door and window is received, wherein the second friend circle white list comprises second networking equipment establishing a second friend circle with the intelligent door and window.

In the embodiment of the invention, the intelligent door and window is added into the first friend circle white list of the air detection device by adopting various schemes, for example, the intelligent door and window and the air detection device are arranged in a circle by a mobile phone, if the intelligent door and window and the air detection device are arranged in a network to the same user, the intelligent door and window and the air detection device are automatically arranged in a circle, and the intelligent door and window and the air detection device are arranged in a circle by distance measurement.

Specifically, when smart door and window and empty gas detection surveys equipment and encloses through the range finding group, after the equipment information who acquires the smart door and window who treats the network deployment, still include: sending a distance measuring command to the intelligent door and window with a preset first power; and after receiving a networking command sent by the intelligent door and window, adding the intelligent door and window into a first friend circle white list of the air detection equipment.

Under another condition, after a networking command sent by the intelligent door and window is not received, the intelligent door and window is judged to belong to a verified list.

It should be noted that, in the embodiment of the present invention, the measured distance is an unobstructed straight line distance, and for the unobstructed straight line distance, an obstacle has a strong influence on signal attenuation, for example, the physical distance between the AB is only 1M, but a wall is separated in the middle, and it is likely that the actual measured distance is 10M away. Therefore, the adoption of the barrier-free straight line distance just meets the requirement that people need to distinguish kitchen electricity in different rooms.

Further, the first power is smaller than the communication power of the air detection device, because if the strength of the transmitted signal is not reduced, the error ratio of the detected unobstructed straight-line distance is larger, and the reduction of the transmitted strength can effectively reduce the misjudgment. The change of the connection signal transmission power includes, but is not limited to, properly decreasing the signal transmission power, and the decrease of the signal transmission power may be based on the increase of the signal transmission power, which is only a preferable case to reduce the error.

Further, before sending the ranging command to the smart door/window with the preset first power, the method further comprises: acquiring the first circle of friends white list and the verified list; judging whether the intelligent door and window is in the first friend circle white list and the verified list or not; and when the intelligent door and window is not in the first circle of friends white list and is not in the verified list, executing a step of sending a ranging command to the intelligent door and window. That is to say, before sending the distance measurement command to the smart door/window, it is necessary to determine whether the distance measurement command has been sent to the smart door/window before, and when the distance measurement command has not been sent (i.e. the smart door/window is not in the first circle of friends white list nor in the verified list), the distance measurement command is sent to the smart door/window.

Step 103, searching the second networked device included in the second circle of friends white list, and adding the second networked device into the first circle of friends white list.

When the air detection equipment sends a distance measurement command to the intelligent door and window, the connection signal transmitting power can be properly changed through mutual agreement, and multiple handshaking is carried out in the modes of detecting the strength of a transmitting signal of the other party and the like to confirm the distance between the two parties.

For example, when a searches for a device B to be networked, a ranging command is sent to B; b, after receiving the ranging command signal, determining the distance between B and A; when the distance between the B and the A is smaller than or equal to the standard distance value, the A and the B form a first friend circle, namely the first friend circle of the A comprises the B in a white list; and if the second friend circle white list of the B comprises C and D, adding the C and the D into the first friend circle white list, namely, the first friend circle white list of the A comprises the B, the C and the D. In another case, after B receives the ranging command signal, the distance between B and A is determined; and when the distance between the B and the A is greater than the standard distance value, the A and the B can not form a first friend circle, and the B is classified into a verified list.

And because under normal condition, the floor area of the kitchen is smaller, so the distance between different kitchen appliances can be generally regarded as being within 3 meters of the barrier-free object, namely when the distance between the air detection device and the intelligent door and window is less than or equal to 3 meters, the intelligent door and window can be directly connected, the intelligent door and window is listed in the first friend circle, and when the distance is greater than 3 meters, the intelligent door and window is listed in the verified list of the air detection device.

As a further implementation manner, when a plurality of devices to be networked are searched, the next device to be networked in the plurality of devices to be networked is searched, the next device to be networked is used as the intelligent door window, the plurality of devices to be networked are searched in a traversing manner, and a first circle of friends white list of the first circle of friends is obtained. That is, when a plurality of devices to be networked are searched, it is necessary to determine whether networking with each device to be networked is possible. The method for determining whether networking with each device to be networked is possible is the same as the above step 101 to step 103.

Further, the device ad hoc network method further comprises the following steps: receiving the distance between the intelligent door and the air detection equipment sent by the intelligent door and the intelligent door, and taking the distance between the intelligent door and the air detection equipment as the distance information in the first friend circle; receiving the distance between the intelligent door and the second networked device, which is sent by the intelligent door and the intelligent door, and taking the distance between the intelligent door and the second networked device as the distance information in the first friend circle; after obtaining the first circle of friends white list of the first circle of friends, the method further comprises: sending a ranging command to the second networked device; and receiving the distance between the second networked device and the air detection device, which is sent by the second networked device, and taking the distance between the second networked device and the air detection device as the distance information in the first circle of friends.

It should be noted that the distance information in the first circle of friends includes a distance between any two devices in the white list of the first circle of friends, and may be stored in any one of the devices in the white list of the first circle of friends.

The equipment in the networking network is provided with a communication module, the communication module can be rapidly switched between a normal communication working state and an attempt search close equipment state in a communication gap, the switching speed can reach a second level, and then the equipment to be networked is searched through the communication module. For example, when a new nearby device is found, multiple handshakes may be performed to confirm the distance between each other (which needs to be calibrated at the time of production for each product) by agreeing with each other to appropriately reduce the transmission power, detect the strength of the transmission signal of the other party, and the like. The communication module can be a WIFI module, and can also be any other communication module such as Bluetooth and zigbee which can realize communication and search functions.

As a further implementation, in order to ensure the accuracy of networking, it is necessary to determine a weak link in the networking, and perform a cut at the weak link. As an example, the following situations may be mentioned: (1) Including two air detection devices within the ad hoc network, which is contrary to normal kitchen configurations; (2) The length of the path within the ad hoc network is too long, which is contrary to normal kitchen configurations, e.g. for a kitchen comprising six devices a, B, C, D, E, F, the distance between AB is 2 meters, the distance between BC is 2 meters, the distance between CD is 3 meters, the distance between DE is 2 meters, and the distance between EF is 2 meters, so the path length of ABCDEF is 11 meters, whereas normally the home kitchen would not normally exceed 11 meters.

Specifically, in order to find out a weak link in the networking, the device ad hoc networking method further includes the following steps: (1) When two devices in the first friend circle meet a preset cut-off condition, determining an effective path between the two devices; (2) Screening out the maximum distance from the distances between all the adjacent devices according to the distances between all the adjacent devices in the effective path; (3) And cutting off networking connection between the adjacent equipment corresponding to the maximum distance.

Specifically, the following scheme may be adopted to determine the effective path between the two devices: determining all paths between the two devices; respectively determining the distance between adjacent devices in each path according to the distance information in the first friend circle; obtaining the maximum distance of the path according to the distance between the adjacent devices in any path, traversing all paths between the two devices, and obtaining a plurality of maximum distances corresponding to all paths between the two devices; and screening out the minimum maximum distance from the maximum distances, and taking the path corresponding to the minimum maximum distance as an effective path between the two devices.

Illustratively, when the device A searches the devices B, C and D to be networked, a ranging command signal is sent;

b, after receiving the ranging command signal, determining the distance between the B and the A; when the distance between the B and the A is smaller than the standard distance value, the A and the B form a first friend circle; and if C and D are included in the white list of the friend circle of the B at the moment, adding the C and the D into the first friend circle, so that the A, the B, the C and the D form the first friend circle.

And B determines that the distance between B and A is 1 meter according to the ranging command, and sends the distance between B and A which is 1 meter to A. Meanwhile, the second friend circle of B records that the distance between B and C is 2 meters, the distance between B and D is 2.5 meters, the distance between C and D is 3 meters, B sends the distance between B and C is 2 meters, the distance between B and D is 2.5 meters, and the distance between C and D is 3 meters to A;

further, after the first friend circle is formed by the A, the B, the C and the D, the A still sends a ranging command signal to the C and the D, after the C receives the ranging command signal, the distance between the C and the A is determined to be 2.8 meters, and the C sends the distance between the C and the A to the A, wherein the distance between the C and the A is 2.8 meters; and D determines that the distance between D and A is 2.9 meters after receiving the ranging command signal, and sends D to A, wherein the distance between D and A is 2.9 meters.

The paths among the ADs include ABCD, ACBD, ABD, ACD and AD.

For the first path ABCD, AB =1,bc =2,cd =3, whereby the longest segment of AB, BC, CD is CD, that is to say the maximum distance between ABCDs is 3 meters;

for the second path ACBD, AC =2.8, CB =2, BD =2.5, and it can be seen that the longest segment of AC, CB, BD is AC, that is, the maximum distance between ACBDs is 2.8 meters;

for the third path ABD, AB =1,bd =2.5, so that the longest segment of AB, BD is BD, i.e. the maximum distance between ABDs is 2.5 meters;

for the fourth route ACD, AC =2.8, CD =3, and it can be seen that the longest segment of AC and CD is CD, that is, the maximum distance between ACDs is 3 meters;

for the fifth active path AD, AD =2.9, i.e. the maximum distance of the AD is 2.9 meters.

The path with the smallest maximum distance is taken as the effective path, that is, the effective path between the ADs is ABD, because the maximum distance between the ABDs is 2.5 meters.

Thereby, when the first circle of friends needs to be cut, the maximum distance in the effective path is cut, i.e. the maximum distance BD in the effective path ABD is cut.

And 104, utilizing the first circle of friends white list to carry out linkage between the air detection equipment and the intelligent door and window.

Specifically, the following technical scheme can be adopted for realizing the linkage between the air detection equipment and the door and window based on the first circle of friends white list: acquiring air detection data; judging whether the content of the current harmful gas exceeds the standard or not according to the air detection data; when the harmful gas exceeds the standard, the door and window sends a control signal corresponding to the current harmful gas content.

In the embodiment of the invention, the air detector and the intelligent door and window have certain ad hoc network functions of Wifi and have unique identification information. The linkage of air detector and intelligent door and window is as follows: intelligent door and window and air detector distance are in certain extent, but WIFI self-connection. The air detector can detect the content of harmful gases in the air, including but not limited to one or more of CO, formaldehyde, TVOC and NO. When the concentration of certain indoor harmful gas, such as CO, exceeds the standard, the air detector sends out concentration information that exceeds the standard, and intelligent door and window can receive these data information to automatically, open the window, with outdoor circulation of air.

The embodiment of the invention discloses an equipment ad hoc network method, which is applied to an intelligent door and window as shown in figure 2, and comprises the following steps:

step 201: after the intelligent door and window and the air detection equipment establish a first friend circle, a second friend circle white list of the intelligent door and window is sent to the air detection equipment, so that the air detection equipment obtains the first friend circle white list.

Step 202: and realizing the linkage of the intelligent door and window and the air detection equipment by utilizing the first friend circle white list.

Specifically, utilize first friend circle white list realizes smart door and window with empty gas detection surveys equipment's linkage includes: receiving a control signal sent by the air detection equipment; and controlling the opening amount and/or the opening mode of the intelligent door and window according to the control signal.

Wherein, smart door and window with before empty gas detection surveys equipment and establishes first friend circle, still include: when a distance measuring command sent by air detection equipment is received, determining the distance between the intelligent door and window and the air detection equipment according to the distance measuring command; when smart door and window with when distance between the empty gas detection surveys equipment less than or equal to predetermined standard distance, judge smart door and window with empty gas detection surveys equipment and establishes first friend circle.

Further, determining the distance between the smart door/window and the air detection device according to the ranging command comprises: acquiring first power when the air detection equipment sends the ranging command; acquiring second power when the intelligent door and window receives the ranging command; and determining the distance between the intelligent door and window and the air detection equipment according to the second power and the first power.

The embodiment of the invention also provides a linkage device of the air detection equipment and the door and window, which is applied to the air detection equipment. As shown in fig. 3, includes:

the device information acquiring module 31 is configured to acquire device information of an intelligent door and window to be networked, and the detailed content refers to step 101;

a white list receiving module 32, configured to receive a second circle of friends white list of the smart door and window after the smart door and window are added to the first circle of friends white list of the air detection device, where the second circle of friends white list includes a second networked device that establishes a second circle of friends with the smart door and window, and the detailed content refers to step 102;

a white list adding module 33, configured to search for the second networked device included in the second circle of friends white list, add the second networked device to the first circle of friends white list, and refer to step 103 for details.

A first linkage module 34, configured to utilize the first circle of friends white list to perform linkage between the air detection device and the smart door/window, where the detailed content refers to step 104.

An embodiment of the present invention further provides a linkage device between an air detection device and a door and window, which is applied to an intelligent door and window, where the intelligent door and window is a device to be currently networked of the air detection device, and may be the air detection device or the door and window, as shown in fig. 4, the linkage device includes:

a white list sending module 41, configured to send a second circle of friends white list of the smart door and window to the air detection device after the smart door and window and the air detection device form a first circle of friends, so that the air detection device obtains the first circle of friends white list, where the detailed content refers to step 201;

and a second linkage module 42, configured to implement linkage between the smart door/window and the air detection device by using the first circle of friends white list, where the detailed content refers to step 202.

Embodiments of the present invention further provide an air detection device, which may include a first processor and a first memory, where the first processor and the first memory may be connected by a bus or in another manner.

The embodiment of the invention also provides a door and window, which can comprise a second processor and a second memory, wherein the second processor and the second memory can be connected through a bus or in other manners.

The first processor and the second processor may be Central Processing Units (CPUs). The first Processor and the second Processor may also be other general purpose processors, digital Signal Processors (DSPs), application Specific Integrated Circuits (ASICs), field-Programmable Gate arrays (FPGAs) or other Programmable logic devices, discrete Gate or transistor logic devices, discrete hardware components, or combinations thereof.

The first memory and the second memory are used as a non-transitory computer readable storage medium for storing non-transitory software programs, non-transitory computer executable programs, and modules, such as program instructions/modules corresponding to the method for linking the air detection device with the door/window in the embodiment of the present invention. The first processor and the second processor execute various functional applications and data processing of the processors by running non-transitory software programs, instructions and modules stored in the first memory and the second memory, that is, the method for linking the air detection device with the door and window in the above method embodiments is implemented.

The first memory and the second memory may include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required for at least one function; the storage data area may store data created by the first processor and the second processor, and the like. Further, the first memory and the second memory may include high speed random access memory, and may also include non-transitory memory, such as at least one disk storage device, flash memory device, or other non-transitory solid state storage device. In some embodiments, the first memory and the second memory optionally include memories remotely located from the first processor and the second processor, and these remote memories may be connected to the first processor and the second processor through a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

The one or more modules are stored in the first and second memories, and when executed by the first and second processors, perform a method of linking an air detection apparatus with a door window as in the embodiment shown in fig. 1-2.

The details of the air detection device or the door and window can be understood by referring to the corresponding descriptions and effects in the embodiments shown in fig. 1 to 4, which are not described herein again.

Those skilled in the art will appreciate that all or part of the processes of the methods of the embodiments described above can be implemented by a computer program, which can be stored in a computer-readable storage medium and can include the processes of the embodiments of the methods described above when executed. The storage medium may be a magnetic Disk, an optical Disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a Flash Memory (Flash Memory), a Hard Disk Drive (Hard Disk Drive, abbreviated as HDD), or a Solid State Drive (SSD); the storage medium may also comprise a combination of memories of the kind described above.

Although the embodiments of the present invention have been described in conjunction with the accompanying drawings, those skilled in the art may make various modifications and variations without departing from the spirit and scope of the invention, and such modifications and variations fall within the scope defined by the appended claims.

Claims (16)

1. The utility model provides an empty gas detection surveys equipment and smart door and window's linkage method, is applied to empty gas detection surveys equipment, its characterized in that includes:

acquiring equipment information of an intelligent door and window to be networked;

after the intelligent door and window is added into a first friend circle white list of the air detection equipment, receiving a second friend circle white list of the intelligent door and window, wherein the second friend circle white list comprises second networking equipment establishing a second friend circle with the intelligent door and window;

searching the second networking equipment contained in the second friend circle white list, and adding the second networking equipment into the first friend circle white list;

the linkage between the air detection equipment and the intelligent door and window is carried out by utilizing the first friend circle white list;

after the equipment information of the intelligent door and window to be networked is obtained, the method further comprises the following steps:

sending a distance measurement command to the intelligent door and window with a preset first power so that the intelligent door and window can determine an unobstructed linear distance between the intelligent door and window and the air detection device according to the distance measurement command; when the barrier-free straight-line distance between the intelligent door and the air detection equipment is smaller than or equal to a preset standard distance, judging that the intelligent door and the air detection equipment form a first friend circle, wherein the first power is smaller than the communication power of the air detection equipment;

and after receiving a networking command sent by the intelligent door and window, adding the intelligent door and window into a first circle of friends white list of the air detection equipment.

2. The method of claim 1, wherein the utilizing the first circle of friends white list for the linkage of the air detection device with the smart door window comprises:

acquiring air detection data;

judging whether the content of harmful gas exceeds the standard or not according to the air detection data;

when the content of the harmful gas exceeds the standard, determining a control signal of the intelligent door and window according to the content of the harmful gas, and sending the control signal to the intelligent door and window.

3. The method of claim 2, wherein the harmful gases include one or more of: CO, formaldehyde, TVOC, NO.

4. The method of claim 1, further comprising:

after a networking command sent by the intelligent door and window is not received, judging that the intelligent door and window belongs to a verified list;

before sending a ranging command to the smart door window with a preset first power, the method further comprises:

acquiring the first circle of friends white list and the verified list;

judging whether the intelligent door and window is in the first circle of friends white list and the verified list;

and when the intelligent door and window is not in the first friend circle white list and is not in the verified list, executing a step of sending a ranging command to the intelligent door and window.

5. The method according to claim 1, before acquiring the device information of the smart doors and windows to be networked, further comprising:

searching equipment to be networked;

when a plurality of devices to be networked are searched, after the second networked device is added into the first circle of friends or after the intelligent door and window is judged to belong to a verified list, the method further comprises the following steps:

and searching the next device to be networked in the plurality of devices to be networked, taking the next device to be networked as the intelligent door and window, traversing the searching to obtain the plurality of devices to be networked, and obtaining a first friend circle white list of the first friend circle.

6. The method of claim 5, further comprising:

receiving the distance between the intelligent door and the air detection device sent by the intelligent door and the intelligent window, and taking the distance between the intelligent door and the air detection device as the distance information in the first friend circle;

receiving the distance between the intelligent door and the second networked device, which is sent by the intelligent door and the intelligent door, and taking the distance between the intelligent door and the second networked device as the distance information in the first friend circle;

after obtaining the first circle of friends white list of the first circle of friends, the method further comprises: sending a ranging command to the second networked device; and receiving the distance between the second networked device and the air detection device, which is sent by the second networked device, and taking the distance between the second networked device and the air detection device as the distance information in the first friend circle.

7. The method of claim 5, further comprising:

when two devices in the first friend circle meet a preset cut-off condition, determining an effective path between the two devices;

screening out the maximum distance from the distances between all adjacent devices according to the distances between all adjacent devices in the effective path;

cutting off networking connection between adjacent devices corresponding to the maximum distance;

the determining the valid path between the two devices comprises:

determining all paths between the two devices;

respectively determining the distance between adjacent devices in each path according to the distance information in the first friend circle;

obtaining the maximum distance of the path according to the distance between the adjacent devices in any path, traversing all paths between the two devices, and obtaining a plurality of maximum distances corresponding to all paths between the two devices;

and screening out the minimum maximum distance from the maximum distances, and taking the path corresponding to the minimum maximum distance as an effective path between the two devices.

8. The utility model provides an empty gas detection surveys method of equipment and smart door and window's linkage, is applied to smart door and window, its characterized in that includes:

after the smart door and window and the air detection device executing the air detection device and smart door and window linkage method according to any one of claims 1 to 7 establish a first circle of friends, sending a second circle of friends white list of the smart door and window to the air detection device, so that the air detection device obtains the first circle of friends white list;

and realizing the linkage of the intelligent door and window and the air detection equipment by utilizing the first circle of friends white list.

9. The method of claim 8, wherein utilizing the first circle of friends white list to enable the smart door window to be linked with the air detection device comprises:

receiving a control signal sent by the air detection equipment;

and controlling the opening amount and/or the opening mode of the intelligent door and window according to the control signal.

10. The method of claim 8, further comprising, before the smart door window and the air detection device form a first circle of friends:

when a distance measuring command sent by air detection equipment is received, determining an unobstructed linear distance between the intelligent door and window and the air detection equipment according to the distance measuring command;

when smart door and window with when accessible straight-line distance between the empty gas detection surveys equipment less than or equal to predetermined standard distance, judge smart door and window with empty gas detection surveys equipment and establishes first friend circle.

11. The method of claim 10, wherein determining the distance between the smart door window and the air detection device from the ranging command comprises:

acquiring first power when the air detection equipment sends the ranging command;

acquiring second power when the intelligent door and window receives the ranging command;

and determining the distance between the intelligent door and window and the air detection equipment according to the second power and the first power.

12. The utility model provides an empty gas detection surveys equipment and smart door and window's aggregate unit, is applied to empty gas detection surveys equipment, its characterized in that includes:

the device information acquisition module is used for acquiring the device information of the intelligent door and window to be networked;

the white list receiving module is used for receiving a second circle of friends white list of the intelligent door and window after the intelligent door and window is added into the first circle of friends white list of the air detection equipment, wherein the second circle of friends white list comprises second networked equipment which establishes a second circle of friends with the intelligent door and window;

a white list adding module, configured to search for the second networked device included in the second friend circle white list, and add the second networked device to the first friend circle white list;

the first linkage module is used for utilizing the first friend circle white list to carry out linkage between the air detection equipment and the intelligent door and window;

after the equipment information of the intelligent door and window to be networked is obtained, the method further comprises the following steps:

sending a distance measurement command to the intelligent door and window with a preset first power so that the intelligent door and window can determine an unobstructed linear distance between the intelligent door and window and the air detection device according to the distance measurement command; when the barrier-free straight-line distance between the intelligent door and the air detection equipment is smaller than or equal to a preset standard distance, judging that the intelligent door and the air detection equipment form a first friend circle, wherein the first power is smaller than the communication power of the air detection equipment;

and after receiving a networking command sent by the intelligent door and window, adding the intelligent door and window into a first circle of friends white list of the air detection equipment.

13. The utility model provides an empty gas detection surveys equipment and smart door and window's aggregate unit, is applied to smart door and window, its characterized in that includes:

a white list sending module, configured to send a white list of a second circle of friends of the smart door or window to the air detection device after the smart door or window and the air detection device that performs the method of linking the air detection device with the smart door or window according to any one of claims 1 to 7 establish a first circle of friends, so that the air detection device obtains the first circle of friends white list;

and the second linkage module is used for realizing linkage of the intelligent door and window and the air detection equipment by utilizing the first friend circle white list.

14. An apparatus, comprising: at least one processor; and a memory communicatively coupled to the at least one processor; wherein the memory stores instructions executable by the at least one processor to cause the at least one processor to perform the steps of the method of associating an air detection device with a smart door window according to any one of claims 1-11.

15. The apparatus of claim 14, wherein the apparatus comprises an air detection device and a smart door window.

16. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method for linking an air detection device with a smart door window according to any one of claims 1 to 11.

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